Preface
Page: i-i (1)
Author: Santhanam Harikrishnan*
DOI: 10.2174/9789815051216123010001
PDF Price: $15
Renewable Energy Generation Using a Novel Geothermal-Solar Hybrid Power Plant Using RORC
Page: 1-31 (31)
Author: K. C. Ramya*, S. Sheeba Rani, S. Sivaranjani and R. Vinoth Kumar
DOI: 10.2174/9789815051216123010003
PDF Price: $15
Abstract
A recent survey of energy consumption indicates that there has been exponential growth in the need for renewable energy and also for curbing the growth of fossil fuel reserves. To meet this future need, renewable energy sources are being explored. In this paper, we have proposed a Recuperative Organic Rankine Cycle that operates in conjunction with air-cooled condensers. Solar energy is said to be an energy source that varies periodically, unlike geothermal energy which is available round the clock, to generate electricity continuously. Hence it is a highly recommended source to meet the growing demands for electricity globally. A major contribution to geothermal power development is the progress in Organic Rankine Cycles. These plants are best known for their ability to curb harmful gas emissions, especially that of noncondensable gases. There is a significant growth in geothermal power owing to the ORC (Organic Ranking Cycle) power units that are implemented. In this methodology, the working fluid of ORC is made to go through an evaporator where a hot turbine is used to heat the liquid. In this process, the temperature of the preheated liquid is further increased with the aid of solar energy. This heat generated thus is further converted into electricity when the turbine unit causes the expansion of the fluid. Finally, an aircooled condenser is used to condense the final exhaust of the turbine. Combining the two powerful forms of renewable energy (solar and geothermal), it is possible to generate power in such a way that the need for power begins to drop from its peak that it has achieved already. The simulated results define the decline in energy consumption of condensers based on the minimum heat transfer area of the condenser as well as the minimum power consumption of the fans.
Energy Harvesting Through Thermoelectric Generators
Page: 32-66 (35)
Author: A.D. Dhass*, Ganesh Babu L., Raghuram Pradhan, G.V.K Murthy and M. Sreenivasan
DOI: 10.2174/9789815051216123010004
PDF Price: $15
Abstract
Thermoelectric generator (TEG) converts waste heat energy from
automobiles into valuable electrical power and has no moving parts compared to
conventional thermoelectric motors. The functioning of TEG is dependent on the
design and the material used. TEGs are classified as small and medium power outputs.
Small power outputs are in the range between 5 μW to 1W, and high power outputs are
higher than 1W in a TEG. Thermoelectric power generators offer fast, economical
storage methods for wearable and mobile applications. Macro heat waste application is
recovered through in-house, industrial and solid waste. Moreover, an immense amount
of waste fuel, such as recycling and power plants, is emitted from the industry; this can
be utilized in a useful manner by TEGs. This chapter discusses the TEG study of the
fundamental operating principles, TEG products, micro applications and energy
generation techniques.
Solar Electric Vehicle Charging and Grid Interaction: An Integrated Module
Page: 67-103 (37)
Author: D. Muruganandam*, J. Jayapriya, P.K. Chidambaram and B. Karthik Anand
DOI: 10.2174/9789815051216123010005
PDF Price: $15
Abstract
Electric mobility is one of the key technologies for the replacement of nonrenewable energy sources in the long term; creating new markets, opportunities, and new technologies, as the old energy order comes to an end with the evolution of new ones. With the passing of around two centuries, electric vehicle technology has developed to different levels across the globe. Norway has the highest percentage of electric vehicles, while China has the highest number of electric vehicles sold per year in the world. India is catching up with electric vehicle penetration. As per 2018 data, 49% of the total vehicles sold in Norway were electric. In 2019, China registered the maximum number of electric vehicles sold – 1.15 million vehicles. The key advantages of e-mobility are a reduction in GHG emissions, a reduction in the dependency on fossil fuels, higher efficiency compared to ICE vehicles, fewer noise emissions, and the flexibility of EVs becoming a platform for collaborative development of autonomous cars and shared mobility and MaaS. The key challenges are the total cost of ownership, charging infrastructure, reliance on the imported content and parts, customer acceptance of EVs, vehicle range anxiety and battery manufacturing, and availability of raw materials. This research investigates in detail the opportunities created by technologies such as solar-powered vehicle charging, the second life of traction battery, smart grid integration, connected and autonomous CAVE and vehicle light-weighting to enable e-mobility as a more commercial means of transportation.
A Review of the Current Challenges on the Issues of Scramjet Combustion Engines
Page: 104-149 (46)
Author: Namrata Bordoloi, K. M. Pandey*, K. K. Sharma and Dharmendra Sapariya
DOI: 10.2174/9789815051216123010006
PDF Price: $15
Abstract
Scramjet technology is one of the revolutionary technologies of the
hypersonic industry. The scramjet engine uses air-breathing propulsion technology,
which has been proven to be the most promising technology for high Mach number
flights. The paper focuses on the status, key challenges and future scope of the scramjet
engines. This paper presents an extensive literature review of the experimental and
computational studies carried out by various researchers around the globe. In this
paper, the current developments in scramjet technology and its future scope are
precisely stated. It is concluded from the review that the flow inside the scramjet
combustor is very complex and sensitive. The understanding of the turbulence,
boundary layer formation and separation, physics of the flow, and the physiochemical
processes involved in combustion still require extensive dedication of researchers in the
near future to address the stated problems.
Review of the Role of Geometrical Modification of Scramjet Combustor on Performance Characteristics
Page: 150-178 (29)
Author: Kumari Ambe Verma, K. M. Pandey*, K.K. Sharma and Dhiren R. Patel
DOI: 10.2174/9789815051216123010007
PDF Price: $15
Abstract
The current scenario in the field of aviation is focused on hypersonic-speed
vehicles. To achieve the required performance, engines have to be designed in such a
way that their outcome should be maximum. Nowadays high-speed performance
engines have utilized a type of air-breathing engine amongst which, the scramjet is
found appropriate. However, the engine can only perform under atmospheric area
because the supersonic combustion ramjet engine utilizes the atmospheric air as an
oxidizer. Nonetheless, engines do not comprise any rotating or moving parts. So, to
complete the mixing and chemical kinetics, engine geometry has special dimensions.
The present chapter is focused on a rigorous review of the geometrical modification of
the combustor and fuel injector. The impact of mixed fuel, different types of working
fuels, and variable inflow conditions have been explored to uncover the beneficial
effects on scramjet combustion performance. Since numerous authors have explored
different aspects of the ongoing challenges in scramjet hence a summary has been
drawn to acquire a suitable model for future work.
Subject Index
Page: 179-183 (5)
Author: Santhanam Harikrishnan*
DOI: 10.2174/9789815051216123010008
PDF Price: $15
Introduction
The world faces significant challenges as the population and consumption continue to grow while fossil fuels and other raw materials are depleted at ever-increasing rates. Environmental consciousness and a penchant for thinking about material cycles have caught on with consumers. Therefore, the use of environmentally compatible materials and sustainable production methods are now desired. Materials and Technologies for a Green Environment discusses the major issues surrounding the production of energy through biofuels and waste management. It comprises seven chapters that cover various fields of interest to readers involved in environmental management and sustainability planning. The topics covered include renewable energy sources, thermoelectric generators, electric vehicles, biodiesel production from poultry waste, scramjet combustion engines, and sustainable architecture for green buildings. Given its scope, this book is a valuable resource for students, researchers and engineers in environmental science, mechanical engineering, and chemical engineering and sustainability studies.